Yu Jin, Rui Peng, Junping Shi
Published 2019-04-16Version 1
Natural rivers connect to each other to form networks. The geometric structure of a river network can significantly influence spatial dynamics of populations in the system. We consider a process-oriented model to describe population dynamics in river networks of trees, establish the fundamental theories of the corresponding parabolic problems and elliptic problems, derive the persistence threshold by using the principal eigenvalue of the eigenvalue problem, and define the net reproductive rate to describe population persistence or extinction. By virtue of numerical simulations, we investigate the effects of hydrological, physical, and biological factors, especially the structure of the river network, on population persistence.
Existence of the global solutions of an integro-differential equation in population dynamics
The Fisher-KPP equation over simple graphs: Varied persistence states in river networks
Evolution equations with applications to population dynamics
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